Linear electron beam assisted roll-to-roll in-vacuum flexographic patterning for flexible thermoelectric generators
Linear electron beam assisted roll-to-roll in-vacuum flexographic patterning for flexible thermoelectric generators
In this work, we investigated the use of in-line linear electron beam irradiation (LEB) surface treatment integrated into a commercially compatible roll-to-roll (R2R) processing line, as a single fluorocarbon cleaning step, following flexography oil masking used to pattern layers for devices. Thermoelectric generators (TEGs) were selected as the flexible electronic device demonstrator; a green renewable energy harvester ideal for powering wearable technologies. BiTe/BiSbTe-based flexible TEGs (f-TEGs) were fabricated using in-line oil patterned aluminium electrodes, followed by a 600 W LEB cleaning step, in which the duration was optimised. A BiTe/BiSbTe f-TEG using an oil-patterned electrode and a 15 min LEB clean (to remove oil prior to BiTe/BiSbTe deposition) showed similar Seebeck and output power (S ~ 0.19 mV K−1 and p = 0.02 nW at ΔT = 20 K) compared to that of an oil-free reference f-TEG, demonstrating the success of using the LEB as a cleaning step to prevent any remaining oil interfering with the subsequent active material deposition. Device lifetimes were investigated, with electrode/thermoelectric interface degradation attributed to an aluminium/fluorine reaction, originating from the fluorine-rich masking oil. A BiTe/GeTe f-TEG using an oil-patterned/LEB clean, exceeded the lifetime of the comparable BiTe/BiSbTe f-TEG, highlighting the importance of deposited material reactivities with the additives from the masking oil, in this case fluorine. This work therefore demonstrates (i) full device architectures within a R2R system using vacuum flexography oil patterned electrodes; (ii) an enabling Electron beam cleansing step for removal of oil remnants; and (iii) that careful selection of masking oils is needed for the materials used when flexographic patterning during R2R.
flexible electronics, flexography, linear electron beam irradiation, patterning, physical vapor deposition, roll-to-roll, thermoelectric
1
Stuart, Bryan
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Morgan, Katrina
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Tao, Xudong
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Zeimpekis, Ioannis
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Feng, Zhuo
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Gregory, Daniel
dc8fd928-be11-4811-b17c-8bd089af5627
Assender, Hazel
13151b66-9af4-47ab-994c-d91688429e06
29 November 2021
Stuart, Bryan
15b54610-811c-440b-816b-9f197335b265
Morgan, Katrina
2b9605fc-ac61-4ae7-b5f1-b6e3d257701d
Tao, Xudong
6c09ad28-b820-448b-b312-e2a8f100dea3
Zeimpekis, Ioannis
a2c354ec-3891-497c-adac-89b3a5d96af0
Feng, Zhuo
cd51c72a-9ae9-452d-87ba-62520081e90a
Gregory, Daniel
dc8fd928-be11-4811-b17c-8bd089af5627
Assender, Hazel
13151b66-9af4-47ab-994c-d91688429e06
Stuart, Bryan, Morgan, Katrina, Tao, Xudong, Zeimpekis, Ioannis, Feng, Zhuo, Gregory, Daniel and Assender, Hazel
(2021)
Linear electron beam assisted roll-to-roll in-vacuum flexographic patterning for flexible thermoelectric generators.
Coatings, 11 (12), .
(doi:10.3390/coatings11121470).
Abstract
In this work, we investigated the use of in-line linear electron beam irradiation (LEB) surface treatment integrated into a commercially compatible roll-to-roll (R2R) processing line, as a single fluorocarbon cleaning step, following flexography oil masking used to pattern layers for devices. Thermoelectric generators (TEGs) were selected as the flexible electronic device demonstrator; a green renewable energy harvester ideal for powering wearable technologies. BiTe/BiSbTe-based flexible TEGs (f-TEGs) were fabricated using in-line oil patterned aluminium electrodes, followed by a 600 W LEB cleaning step, in which the duration was optimised. A BiTe/BiSbTe f-TEG using an oil-patterned electrode and a 15 min LEB clean (to remove oil prior to BiTe/BiSbTe deposition) showed similar Seebeck and output power (S ~ 0.19 mV K−1 and p = 0.02 nW at ΔT = 20 K) compared to that of an oil-free reference f-TEG, demonstrating the success of using the LEB as a cleaning step to prevent any remaining oil interfering with the subsequent active material deposition. Device lifetimes were investigated, with electrode/thermoelectric interface degradation attributed to an aluminium/fluorine reaction, originating from the fluorine-rich masking oil. A BiTe/GeTe f-TEG using an oil-patterned/LEB clean, exceeded the lifetime of the comparable BiTe/BiSbTe f-TEG, highlighting the importance of deposited material reactivities with the additives from the masking oil, in this case fluorine. This work therefore demonstrates (i) full device architectures within a R2R system using vacuum flexography oil patterned electrodes; (ii) an enabling Electron beam cleansing step for removal of oil remnants; and (iii) that careful selection of masking oils is needed for the materials used when flexographic patterning during R2R.
Text
coatings-11-01470-v3
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More information
Accepted/In Press date: 22 November 2021
Published date: 29 November 2021
Keywords:
flexible electronics, flexography, linear electron beam irradiation, patterning, physical vapor deposition, roll-to-roll, thermoelectric
Identifiers
Local EPrints ID: 452959
URI: http://eprints.soton.ac.uk/id/eprint/452959
ISSN: 2079-6412
PURE UUID: 73babed7-06b9-407f-bea3-c52f2c7ae9a1
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Date deposited: 07 Jan 2022 11:46
Last modified: 21 Sep 2024 01:46
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Contributors
Author:
Bryan Stuart
Author:
Katrina Morgan
Author:
Xudong Tao
Author:
Zhuo Feng
Author:
Daniel Gregory
Author:
Hazel Assender
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